CN210170876U - Water-steam separator - Google Patents

Abstract

The utility model provides a water-vapor separator, which relates to the technical field of dewatering equipment and comprises a barrel, wherein two clapboards which divide the barrel into three cavities are arranged in the barrel, a support plate is arranged at the bottom of a first cavity, an arc plate is arranged at the free end of the support plate, and a water-vapor separation cavity is formed by coating the support plate, the arc plate and the side wall of the barrel; the water-vapor separation cavity is provided with an air inlet nozzle, the arc-shaped plate is provided with a first vent hole, the bottom of the second cavity is provided with a first separation barrel, the first separation barrel is provided with a first connecting hole communicated with the first cavity, the side wall of the first separation barrel is provided with a second vent hole communicated with the second cavity, the bottom of the third cavity is provided with a second separation barrel, the second separation barrel is provided with a second connecting hole communicated with the third cavity, the side wall of the second separation barrel is provided with a third vent hole communicated with the third cavity, and the top of the barrel is provided with an air outlet nozzle; the utility model discloses a water vapor separation is carried out in proper order to arc, first separator and the triple structure of second separator, has fine dewatering effect.

Description

Water-steam separator

Technical Field

The utility model relates to a dewatering equipment technical field, more specifically relates to a vapor separator.

Background

The hydrogen and oxygen generated by electrolyzing the aqueous solution can be used as a household hydrogen source to be introduced into a gas stove for combustion. However, moisture is carried in the hydrogen and oxygen discharged from the solution, and if the hydrogen and oxygen are not subjected to water removal and cleaning, the moisture interferes with normal combustion of the hydrogen, so that the heating effect of the gas stove is poor. Therefore, a water-vapor separator which can remove water in hydrogen and oxygen and has good water removal effect is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a steam separator carries out steam separation in proper order through arc, first separator and second separator triplex structure, has fine dewatering effect.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a water-vapor separator, which comprises a cylinder body, wherein two horizontally placed partition plates are arranged in the cylinder body, the inner cavity of the cylinder body is divided into a first cavity, a second cavity and a third cavity which are sequentially arranged from bottom to top by the two partition plates, an upward extending support plate is arranged at the bottom of the first cavity, an arc plate is arranged at the free end of the support plate, the other end of the arc plate extends to the side wall of the cylinder body, and a water-vapor separation cavity is formed by coating the support plate, the arc plate and the side wall of the cylinder body; the water-vapor separation chamber is provided with an air inlet nozzle communicated with the outside, the arc-shaped plate is provided with a plurality of vertical first vent holes, the bottom of the second chamber is provided with a first separation barrel, the first separation barrel is provided with a first connecting hole communicated with the first chamber, the side wall of the first separation barrel is provided with a second vent hole communicated with the second chamber, the bottom of the third chamber is provided with a second separation barrel, the second separation barrel is provided with a second connecting hole communicated with the third chamber, the side wall of the second separation barrel is provided with a third vent hole communicated with the third chamber, and the top of the barrel is provided with an air outlet nozzle communicated with the third chamber.

The utility model discloses in the technical scheme of preferred, the barrel bottom is equipped with water drainage nozzle, water drainage nozzle be equipped with first cavity with the wash port that the steam and water separation chamber all communicates.

The utility model discloses in the technical scheme of preferred, the quantity of suction nozzle is two, two the suction nozzle stagger set up in on the barrel lateral wall.

In the preferred embodiment of the present invention, the first vent hole and the first connection hole are staggered.

The utility model discloses in the technical scheme of preferred, the second ventilation hole is located 2/3 ~ 3/4 department of first separator lateral wall height, the third ventilation hole is located 2/3 ~ 3/4 department of second separator lateral wall height.

The utility model has the advantages that:

compared with the prior art, the utility model provides a pair of water vapor separator climbs the in-process at hydrogen and oxygen, under the triple effect that blocks of arc, first separator, second separator, the easy liquefaction of steam assembles in barrel bottom water discharge nozzle department, and hydrogen and oxygen then rise to barrel top gas outlet nozzle department to realize the steam separation, have fine dewatering effect.

Drawings

FIG. 1 is a cross-sectional view of a water vapor separator according to an embodiment of the present invention;

FIG. 2 is a right side view of a water vapor separator according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a water vapor separator taken along the line A-A according to an embodiment of the present invention;

fig. 4 is a top projection view of a water-vapor separator in the direction B-B according to an embodiment of the present invention.

In the figure:

100. a barrel; 110. a first cavity; 120. a second cavity; 130. a third cavity; 200. a partition plate; 300. a water-vapor separation chamber; 310. a support plate; 320. an arc-shaped plate; 321. a first vent hole; 400. a first separation drum; 410. a first connection hole; 420. a second vent hole; 500. a second separation drum; 510. a second connection hole; 520. a third vent hole; 600. an air inlet nozzle; 700. an air outlet nozzle; 800. a water discharge nozzle; 810. and (4) draining the water.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings and technical solutions needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

The technical solution of the present invention is further described below by referring to the drawings and the embodiments, it should be noted that the drawings in the embodiments are only schematic diagrams and do not limit the size, and the actual size is subject to the material object.

As shown in fig. 1 to 4, the embodiment provides a water vapor separator, which includes a cylinder 100, two horizontal partition plates 200 are disposed in the cylinder 100, an inner cavity of the cylinder 100 is divided into a first cavity 110, a second cavity 120, and a third cavity 130, which are sequentially arranged from bottom to top, by the two partition plates 200, a support plate 310 extending upward is fixed at the bottom of the first cavity 110, an arc plate 320 is fixed at a free end of the support plate 310, the other end of the arc plate 320 extends to a side wall of the cylinder 100, the support plate 310 and the arc plate 320 are integrally formed, and a water vapor separation chamber 300 is formed between the support plate 310, the arc plate 320, and the side wall of the cylinder 100 in a covering manner; the water-vapor separation chamber 300 is provided with an air inlet nozzle 600 communicated with the outside, the arc-shaped plate 320 is provided with a plurality of vertical first vent holes 321, the water-vapor separation chamber 300 is communicated with the first chamber 110 through the first vent hole 321, a first separating cylinder 400 is fixedly arranged at the bottom of the second cavity 120, the first separating cylinder 400 is provided with a first connecting hole 410 communicated with the first cavity 110, the sidewall of the first separation cylinder 400 is provided with a second venting hole 420 communicated with the second cavity 120, a second separating cylinder 500 is fixedly arranged at the bottom of the third cavity 130, the second separating cylinder 500 is provided with a second connecting hole 510 communicated with the third cavity 130, the side wall of the second separation barrel 500 is provided with a third vent 520 communicated with the third cavity 130, the top of the cylinder 100 is provided with an air outlet 700 communicated with the third cavity 130.

More specifically, the first vent hole 321, the second vent hole 420 and the third vent hole 520 are all tiny holes with relatively small diameters, and when hydrogen and oxygen pass through the tiny holes, the partition plate 200 and the arc-shaped plate 320 can both play a certain role in blocking water vapor.

Further, a water discharge nozzle 800 is arranged at the bottom of the cylinder 100, the water discharge nozzle 800 is provided with a water discharge hole 810 communicated with the first cavity 110 and the water-vapor separation cavity 300, and the arc-shaped plate 320 blocks the remaining water from being discharged to the outside through the water discharge nozzle 800 along the water discharge hole 810; the water blocked by the first separating drum 400 flows back into the first cavity 110, and the water in the first cavity 110 is also discharged to the outside through the water discharge nozzle 800 along the water discharge hole 810; of course, a drain pipe may be disposed on the sidewall of the second chamber 120 to block the moisture flowing back to the second chamber 120 from being discharged, but since most of the moisture is removed by the first separating cylinder 400 and the arc plate 320 and the moisture blocked by the second separating cylinder 500 is less, a drain pipe communicated with the outside may be disposed on the second chamber 120.

Further, the number of the air intake nozzles 600 is two, and the two air intake nozzles 600 are respectively used for introducing hydrogen generated by the cathode and oxygen generated by the anode after electrolysis, so that the effect of mixing the hydrogen and the oxygen is achieved; the two air intake nozzles 600 are arranged on the side wall of the cylinder 100 in a staggered manner, so that a certain space is reserved between the two air intake nozzles 600, and the air intake nozzles 600 are conveniently in butt joint with a pipeline.

Further, the first vent hole 321 and the first connection hole 410 are arranged in a staggered manner, and since the moisture blocked by the first separation cylinder 400 can flow back into the first cavity 110 through the first connection hole 410, in order to prevent the flowing-back moisture from directly dropping on the first vent hole 321 to affect the normal flow of the gas, the first vent hole 321 and the first connection hole 410 are arranged in a staggered manner.

Further, the second venting holes 420 are located at 2/3-3/4 of the height of the side wall of the first separation cylinder 400, and the third venting holes 520 are located at 2/3-3/4 of the height of the side wall of the second separation cylinder 500, so that the sufficient climbing height of oxygen and hydrogen inside the first separation cylinder 400 or the second separation cylinder 500 is ensured, and the separation cylinder with the sufficient climbing height has a better effect of blocking water vapor due to the fact that water vapor is heavier than hydrogen and oxygen, so that the water vapor is easier to liquefy.

The utility model provides a pair of water vapor separator, when using, let in hydrogen and oxygen respectively through two suction nozzle 600, hydrogen and oxygen loop through first air vent 321, second air vent 420, third air vent 520 climbs at barrel 100, at the in-process of climbing, at arc 320, first separation barrel 400, under the triple effect that blocks of second separation barrel 500, the easy liquefaction of steam assembles in barrel 100 bottom water drainage nozzle 800 department, and hydrogen and oxygen then rise to barrel 100 top air outlet nozzle 700 department, thereby realize the steam separation, have fine dewatering effect.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (5)

1. A water vapor separator characterized by:

the water vapor separation device comprises a barrel body (100), wherein two horizontally placed partition plates (200) are arranged in the barrel body (100), the two partition plates (200) divide an inner cavity of the barrel body (100) into a first cavity (110), a second cavity (120) and a third cavity (130) which are sequentially arranged from bottom to top, a support plate (310) extending upwards is arranged at the bottom of the first cavity (110), an arc-shaped plate (320) is arranged at the free end of the support plate (310), the other end of the arc-shaped plate (320) extends to the side wall of the barrel body (100), and a water vapor separation cavity (300) is formed by coating the support plate (310), the arc-shaped plate (320) and the side wall of the barrel body (100);

the water-vapor separation cavity (300) is provided with an air inlet nozzle (600) communicated with the outside, the arc-shaped plate (320) is provided with a plurality of vertical first vent holes (321), a first separating cylinder (400) is arranged at the bottom of the second cavity (120), the first separating cylinder (400) is provided with a first connecting hole (410) communicated with the first cavity (110), the side wall of the first separating cylinder (400) is provided with a second vent hole (420) communicated with the second cavity (120), a second separating cylinder (500) is arranged at the bottom of the third cavity (130), the second separating cylinder (500) is provided with a second connecting hole (510) communicated with the third cavity (130), the side wall of the second separating cylinder (500) is provided with a third vent hole (520) communicated with the third cavity (130), and the top of the cylinder body (100) is provided with an air outlet nozzle (700) communicated with the third cavity (130).

2. The water vapor separator of claim 1, wherein:

the bottom of the cylinder body (100) is provided with a water draining nozzle (800), and the water draining nozzle (800) is provided with a water draining hole (810) communicated with the first cavity (110) and the water-vapor separation cavity (300).

3. The water vapor separator of claim 1, wherein:

the number of the air inlet nozzles (600) is two, and the two air inlet nozzles (600) are arranged on the side wall of the barrel body (100) in a staggered mode.

4. The water vapor separator of claim 1, wherein:

the first vent hole (321) and the first connection hole (410) are arranged in a staggered manner.

5. The water vapor separator of claim 1, wherein:

the second ventilation holes (420) are located at 2/3-3/4 of the height of the side wall of the first separation cylinder (400), and the third ventilation holes (520) are located at 2/3-3/4 of the height of the side wall of the second separation cylinder (500).

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